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Biomineralization can offer a credible prediction of bioactivity for the synthetic bone regeneration materials.
Crack-free mesoporous titania films (MTFs) on Ti6Al4V demonstrated potential application for implanting and bone regeneration materials in the future.
Multilayer nanofibrous scaffolds are gaining great attention in biomedical fields especially as tissue regeneration materials as well as drug delivery devices.
These findings might have important implications for our understanding of the fundamental MSC functions and the optimal design of bone regeneration materials.
Porous mesopore bioactive glass (MBG) scaffolds are proposed as potential bone regeneration materials due to their excellent bioactivity and drug-delivery ability.
Porous mesopore-bioglass (MBG) scaffolds have been proposed as a new class of bone regeneration materials due to their apatite-formation and drug-delivery properties; however, the material's inherent brittleness and high degradation and surface instability are major disadvantages, which compromise its mechanical strength and cytocompatibility as a biological scaffold.
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For immunolocalization of HRGPs, ECs and NECs were collected 7 days after the last subculture as well as 5-weeks-old regeneration material on RD1 medium (including somatic embryos at different stages).
Both the uncoated and coated PCL fibrous mats expressed scleraxis equally, an early tendon differentiation marker protein, but the polyphosphazene coated mats showed increased tenomodulin expression indicating that this material was more phenotypically mature and a better candidate as a tendon regeneration material than the uncoated counterpart.
Reportedly, calcium sulfate hemihydrate (CaSO4·1/2H2O; CSH) has long been used in clinic as a bone regeneration material, because it is characterized by low curing temperature (about 30°C), rapid setting, excellent biocompatibility without inducing an inflammatory response, and promotion of bone healing [ 4– 8].
Despite a lot of intensive research in the field of polymer nanofibers as wound-healing and tissue-regeneration materials, the behavior of cells in contact with nanofibers in vitro as well as in vivo is still not well understood.
To understand osteoblast-scaffold interactions, their in vivo bioactivity, and cell integration within the scaffold material during bone regeneration, the materials were assessed in vitro by culturing osteoblasts directly on HGCS and grounded DECBM-coated dishes.
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